With GVPE you gain the ability to create an entire virtual network—not just a IP destination used to route and support some specific protocols.
使用 GVPE,您获得了创建一个完整的虚拟网络的能力 —而不只是用于路由并支持一些特定协议的IP目标。
Network traffic is made up of IP packets or simply packets — small chunks of data traveling in streams from a source system to a destination system.
网络流量由IP信息包(或,简称信息包)—以流的形式从源系统传输到目的地系统的一些小块数据—组成。
In tunnel mode, the inner IP header carries the intended source and original destination addresses, while an outer IP header contains IP addresses for hop points such as security gateways.
在隧道模式,内部的ip报头承载预设的源和最初的目的地址,外部ip报头包含用于跳点的IP地址,比如安全网关。
The source and destination nodes are identified by IP addresses.
源和目的地节点都用IP地址标识。
Assign Outbound with the eBlade (destination) IP address and port number.
用eblade(目的地址)的IP地址和端口号来分配Outbound。
The addresses, encapsulated as source and destination in the IP datagrams header, are used to transmit the datagram to their destination, called routing. Basically, this creates two scenarios
地址(在IP数据报头中封装为源和目的地地址)用来将数据报传输到其目的地,这个过程称为路由。
D or — destination: This destination match is used to match packets based on their destination IP address.
d或——destination:该目的地匹配用于根据信息包的目的地ip地址来与它们匹配。
Much of the IP data is not useful, beyond the protocol and source/destination address information.
其中除了协议和来源/目标地址信息,其余许多IP数据是没有用的。
The module provides the source IP, destination IP and protocol information, among others, which we can then print.
这个模块能提供来源IP、目标IP和协议信息等等,然后我们可以打印出这些信息。
In this case, you can see the raw Ethernet, IP, and TCP packet data, including the source and destination host information and packet options.
在这个示例中,您可以看到原始以太网、IP和TCP数据包,包括源、目标主机的信息以及数据包选项。
Round robin would distribute connection attempts evenly among the channels, while hashing would use the client's IP address to determine the destination channel.
轮流调度方式会将连接尝试均匀地分布到各个通道上,而散列方法则使用客户机的IP地址来确定目标通道。
Specifically, you must specify the destination IP address and port against which to run the exploit.
具体来说,需要指定运行攻击所针对的目标IP地址和端口。
IP header, consisting of the IP addressing (source and destination), protocol identity and IP flags.
IP报头,由IP寻址(来源和目标),协议标识和IP标记。
Destination address-the IP address of the receiving computer.
目的地址——接收数据包的计算机的IP地址。
IP provides a service for transmitting blocks of data between two network nodes set up as IP nodes, called source and destination.
IP提供在两个设置为ip节点的网络节点(称为源和目的地)间传输数据块的服务。
The IP packet can now be delivered using the destination hardware address.
现在可以用目的地硬件地址发送IP数据包了。
Once your PC (web browser application) receives the IP address of the destination web server, it will construct a HTTP GET request and send it to Cisco's web server.
一旦你的PC收到目的网站服务器的IP地址,它会建立一个HTTP索取请求,并发送到思科的网站服务器。
When IP needs a hardware address, ARP first consults the ARP cache for the hardware address that corresponds to the destination IP address.
当IP协议需要某一硬件地址时,地址解析协议首先向ARP高速缓存询问与目的地IP地址相应的硬件地址。
The output here specifies that the Ethernet packet contains IP data, specifies the overall packet size and time, and the destination and source Ethernet addresses for the packet.
这里的输出表明 Ethernet数据包包含了IP数据、全部数据包大小和时间,以及数据包的目标和来源地址。
Multi-homing allows a single SCTP endpoint to support multiple IP address and provides redundancy in situations where there are multiple routes to a single destination.
Multi - homing允许单一的sctp端点支持多个IP地址,并在到目标有多个路由的情况下提供冗余。
When the chunks arrive at their final destination, IP assembles the pieces into the original packet.
当这些小数据包到达最终目的地时,IP协议又把这些数据块组装成原来的数据包。
Make an IP address from the source address and routing of data sent to the destination address may become.
一个IP地址使得将来自源地址的数据通过路由而传送到目的地址变为可能。
In computer network, the traditional routing selected on the basis of the destination address of IP packet.
计算机网络中,传统的路由是根据IP包的目的地址进行路由选择。
In computer network, the traditional routing selected on the basis of the destination address of IP packet.
计算机网络中,传统的路由是根据IP包的目的地址进行路由选择。
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